Figures & data
FIG. 3 Mobility size distribution and morphology of uncoated carrier particles in Boltzmann charge state.
![FIG. 3 Mobility size distribution and morphology of uncoated carrier particles in Boltzmann charge state.](/cms/asset/cdf22b54-a81d-4385-a6ca-0f8599c0d3c6/uast_a_863422_o_f0003g.gif)
FIG. 7 Evolution of the carrier particle charge as a function of coating time (coating particle concentration 3 × 106 per cm3). The slight decrease in total concentration indicates the losses of carrier particles during the coating time.
![FIG. 7 Evolution of the carrier particle charge as a function of coating time (coating particle concentration 3 × 106 per cm3). The slight decrease in total concentration indicates the losses of carrier particles during the coating time.](/cms/asset/a18c8157-54e7-46ee-8722-cf208efc48f3/uast_a_863422_o_f0007g.gif)
FIG. 8 Mean electrical charge of the carrier particles versus coating time for different coating particle concentrations.
![FIG. 8 Mean electrical charge of the carrier particles versus coating time for different coating particle concentrations.](/cms/asset/575ffaf2-3163-4f88-b612-d54153100e56/uast_a_863422_o_f0008g.gif)